The four Galilean satellites of Jupiter are readily visible through a pair of binoculars or a small telescope. The inclination of Jupiter's equator to its orbit is small, just over 3°. Since the orbits of the Galilean satellites are very close to the plane of the equator they are frequently eclipsed in Jupiter's shadow. The inner three are eclipsed every orbit, the outermost, Callisto, misses the shadow when one of Jupiters poles are tilted towards the Sun.
A small telescope will show Saturn's rings and its largest satellite Titan. A 20 cm telescope will show up to four more of the moons of Saturn.
Artificial Earth satellites can be seen moving silently across the sky almost any clear night. Information on when and where to look is available.
Binoculars are sufficient to observe the 4 Galilean Satellites of Jupiter although a small telescope makes viewing easier. With a magnitude of about 5 they would be visible to the naked eye from a dark site if it were not for the glare of Jupiter. At regular intervals in its orbit round Jupiter, a satellite will be eclipsed in Jupiter's shadow, or occulted as it passes behind Jupiter or it will transit across the face of Jupiter. When any of these happen the satellite cannot be seen. Hence it is quite likely that at any time not all four will be visible.
Complete predictions of all events of the Jovian Satellites are available at the Institut de Mecanique Celeste at de Calcul Ephemerides.
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The equator and rings of Saturn are inclined, at an angle of about 26° 45' to the plane of its orbit, far more than Jupiter's inclination. Saturn's inclination is just over 3° more than is the Earth's to its orbit.
For about half the time of its 29.5 year orbit of the Sun, the north pole of the planet is tilted towards the Sun. It most recently started to tilt towards the Sun after the ring plane passed through the Sun in August 2009. Also the northern face of the ring system is lit now by the Sun. The next reversal does not take place until May 2025.
As seen from the Earth the north face of the rings has been in view since September 2009, when the Earth passed through the ring plane, and will remain in view until March 2025.
The rings become edge on to the Sun twice during Saturn's 29.5 year orbital period. After being edge on the previously unlit face begins to be sunlit. Near to the time the rings are edge on to the Sun, the Earth also passes through the ring plane so that as seen from the from the Earth the rings appear edge on and for a short time difficult, if not impossible, to see. The Earth may in fact make either one or three passes through the ring plane over a period of a few months (never just two as in the end the face we can see changes). Three passes occur when the faster moving earth moves forward, then back and then forward again through the ring plane. The next triple pass will be in 2038 and 2039.
Following on the Earth moving through the ring plane, the rings will gradually become more exposed to view over the next few years, appearing very narrow at first. Over the course of a year the rings will appear to open and then close a little as the Earth swings from side to side in its orbit. The rings will reach their greatest exposure in late 2017.
When at eastern or western elongation Titan's distance from the planet is about 5 times the diameter of the planet and its rings. During 2012 when north or south of Saturn, Titan will just over 2 diameters of Saturn from the planet at the beginning of the year. By the end of 2012, this distance will have increased to about 4 diameters.
The table below shows the dates at which Titan is at eastern or western elongation and when it is north or south of the planet.
| Eastern Elongation | South of Saturn | Western Elongation | North of Saturn |
|---|---|---|---|
| 2011/12 | |||
| Dec 25 | Dec 29 | Jan 2 | Jan 6 |
| 2012 | |||
| Jan 11 | Jan 15 | Jan 19 | Jan 23 |
| Jan 27 | Jan 31 | Feb 4 | Feb 8 |
| Feb 12 | Feb 16 | Feb 20 | Feb 24 |
| Feb 28 | Mar 3 | Mar 6 | Mar 10 |
| Mar 14 | Mar 18 | Mar 22 | Mar 26 |
| Mar 30 | Apr 3 | Apr 7 | Apr 11 |
| Apr 15 | Apr 19 | Apr 23 | Apr 27 |
| May 1 | May 5 | May 9 | May 13 |
| May 17 | May 21 | May 25 | May 29 |
| Jun 2 | Jun 6 | Jun 10 | Jun 14 |
| Jun 18 | Jun 22 | Jun 26 | Jun 30 |
| Jul 4 | Jul 8 | Jul 12 | Jul 16 |
| Jul 20 | Jul 22 | Jul 26 | Jul 30 |
| Aug 5 | Aug 9 | Aug 13 | Aug 17 |
| Aug 21 | Aug 25 | Aug 29 | Sep 2 |
| Sep 6 | Sep 10 | Sep 14 | Sep 18 |
| Saturn is at conjunction with the Sun on October 25 so too close to it for observation. | |||
| Eastern Elongation | South of Saturn | Western Elongation | North of Saturn |
| Oct 24 | Oct 28 | Nov 1 | Nov 5 |
| Nov 9 | Nov 13 | Nov 17 | Nov 21 |
| Nov 25 | Nov 29 | Dec 3 | Dec 7 |
| Dec 11 | Dec 15 | Dec 19 | Dec 23 |
| 2012/13 | |||
| Dec 27 | Dec 31 | Jan 4 | Jan 8 |
Because they are mostly in relatively low orbits, the visibility and times when artificial satellites are visible depends on your location. A good site for satellite tracking predictions is Heavens-Above at heavens-above.com. Information on artificial Earth satellites visible from your own locality can be obtained. This includes Iridium flares, ISS, HST. The site has information on artificial satellites, comets, asteroids and more.
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